Mobility of non-exhaust brake wear dust from road traffic in saturated and unsaturated porous media mimicking subsurface environments DOI Creative Commons

Michela Acocella,

Carlo Bianco, Tiziana Anna Elisabetta Tosco

et al.

Journal of Hazardous Materials, Journal Year: 2025, Volume and Issue: 491, P. 137851 - 137851

Published: March 4, 2025

Road traffic is a major source of atmospheric pollution, especially in urban areas, contributing significantly to particulate matter (PM) emissions. While electric vehicles (EVs) help reduce exhaust emissions, they do not substantially address non-exhaust emissions (NEEs), such as brake wear dust (BWD), which remains significant PM, particularly environments. This study investigates at preliminary level the environmental fate BWD, studying laboratory scale its mobility and behaviour unsaturated saturated porous media, simulate subsoil aquifer conditions. produced through friction between pads rotors during deceleration, can settle on road surfaces, posing risks soil water quality runoff infiltration. Laboratory tests were conducted here highlight BWD transport mechanisms media. influenced by ionic strength flow velocity, with higher rates promoting particle transport, strengths inhibiting it. The also highlights importance composition, sandy soils allowing for greater than clay-rich soils. findings evidence need continued research better understand posed Additionally, potential act carrier other pollutants requires further investigation.

Language: Английский

Mobility of non-exhaust brake wear dust from road traffic in saturated and unsaturated porous media mimicking subsurface environments DOI Creative Commons

Michela Acocella,

Carlo Bianco, Tiziana Anna Elisabetta Tosco

et al.

Journal of Hazardous Materials, Journal Year: 2025, Volume and Issue: 491, P. 137851 - 137851

Published: March 4, 2025

Road traffic is a major source of atmospheric pollution, especially in urban areas, contributing significantly to particulate matter (PM) emissions. While electric vehicles (EVs) help reduce exhaust emissions, they do not substantially address non-exhaust emissions (NEEs), such as brake wear dust (BWD), which remains significant PM, particularly environments. This study investigates at preliminary level the environmental fate BWD, studying laboratory scale its mobility and behaviour unsaturated saturated porous media, simulate subsoil aquifer conditions. produced through friction between pads rotors during deceleration, can settle on road surfaces, posing risks soil water quality runoff infiltration. Laboratory tests were conducted here highlight BWD transport mechanisms media. influenced by ionic strength flow velocity, with higher rates promoting particle transport, strengths inhibiting it. The also highlights importance composition, sandy soils allowing for greater than clay-rich soils. findings evidence need continued research better understand posed Additionally, potential act carrier other pollutants requires further investigation.

Language: Английский

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